2 CHMP request for supplementary information to be ... · patients, and to compare (descriptively) to historic data in Alzheimer’s disease patients (per Protocol Amendment #4).
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7 Westferry Circus ● Canary Wharf ● London E14 4HB ● United Kingdom Telephone +44 (0)20 7418 8400 Facsimile +44 (0)20 7418 8613 E-mail [email protected] Website www.ema.europa.eu An agency of the European Union
FI ((Cmax-Cmin)/Cavg) 0.85 ± 0.35 (42%) 0.77 ± 0.32 (42.2%)
3.1.1.2. Analysis performed across trials
Novartis provided additional indirect analysis of the efficacy data focusing on the results from the
Exelon/Prometax patch and capsule arm of Study B2315 compared to the historic data from the
placebo and Exelon/Prometax capsule arm of Study B2311 to show that relative to the placebo arm in
the pivotal, double-blind Study B2311, treatment with the Exelon/Prometax patch in Study B2315
showed an improvement in patient’s cognitive abilities, considerably less deterioration in activities of
daily living and behavioural symptoms over 6 months.
Analysis population
The primary analysis population was ITT-LOCF in Study B2315 and ITT+RDO in Study B2311. The
ITT+RDO population was the most similar to the ITT-LOCF population in Study B2315, it included all
randomized patients who received at least one dose of study drug and had at least a pre-baseline
assessment and a post-baseline assessment for one of the primary efficacy variables, either under
treatment or not. It also included patients who discontinued study treatment early and continued to
attend scheduled visits for efficacy evaluation.
Cognition
In Study B2315, improvement in cognition, as measured by mean change from baseline in MDRS total
score, was observed for the ITT-LOCF population in the Exelon/Prometax patch group at Week 24 (4.4
points); similar results were observed in the ITT-OC population.
In the placebo group from Study B2311, a worsening in cognition as measured by mean change from
baseline in ADAS-cog total scores was observed at Week 24 in both the ITT+RDO population (-0.7);
similar results were observed in the ITT-OC population.
The use of MDRS in Study B2315 and ADAS-Cog in Study B2311 resulted in a greater variability of
reported outcomes and greater difficulty in comparing data across studies.
Fortunately, though the scoring systems for these cognitive scales differ, there is considerable overlap
between the scales regarding the actual cognitive functions evaluated. Therefore, a method which
standardizes results obtained using different cognitive scales was used as a means of facilitating the
comparison of outcome data. Following transformation of the original MDRS/ADAS-cog scores to
standardized scale scores, mean change from baseline to the different timepoints were assessed and
expressed in standardized units (mean:SD).
In Study B2315 for the ITT-LOCF population, the MDRS change from baseline ratio mean: SD at Week
24 was 0.50 for the Exelon/Prometax capsule and 0.34 for the Exelon/Prometax patch. Similar results
were seen in the ITT-OC population (Table 10).
In Study B2311 for the ITT+RDO population, the ADAS-cog change from baseline ratio mean: SD at
Week 24 was 0.26 for the Exelon/Prometax capsule and -0.09 for placebo. Similar results were seen in
the ITT-OC population (Table 10).
The data indicate that the effects of the Exelon/Prometax patch on cognitive measures in Study B2315
and Study B2311 were better than placebo.
Table 10. Ratios of Mean/SD for MDRS change from baseline in Study B2315 and ADAS-cog change from baseline in Study B2311
Function (activities of daily living)
At Week 24, less functional decline, as measured by mean change from baseline in ADSC-ADL total
score, was observed for the ITT-LOCF population in the Exelon/Prometax patch group from Study
B2315 compared to the ITT-RDO population in the placebo group from Study B2311 (-1.5 vs. -3.6
points, respectively). For the ITT-OC populations the difference in decline between the
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Exelon/Prometax patch group and the placebo group was greater in favor of the Exelon/Prometax
patch (-0.3 vs. -3.5 points, respectively) (Table 11).
Additionally, the decline in the ADCS-ADL score at Week 24 for the Exelon/Prometax patch and
Exelon/Prometax capsule groups in Study B2315 were similar to that observed in the Exelon/Prometax
capsule group and considerably less than observed in the placebo group from Study B2311 (Table 11).
Table 11. Change from baseline in ADCS-ADL total score at Week 24 (Study B2315-ITT-LOCF and ITT-OC populations; Study B2311-ITT+RDO and OC populations)
Behaviour
At Week 24, greater improvement in neuropsychiatric symptoms, as measured by mean change from
baseline in NPI-10 total score, was observed for the ITT-LOCF population in the Exelon/Prometax patch
group from Study B2315 compared to the ITT-RDO population in the placebo group from Study B2311
at Week 24 (-1.0 and -2.6 points, respectively); similar results were observed in the ITT-OC population
(Table 13).
Additionally, the improvement in the NPI-10 score at Week 24 for the Exelon/Prometax patch and
Exelon/Prometax capsule groups in Study B2315 were similar to that observed in the Exelon/Prometax
capsule group and considerably greater than observed in the placebo group from Study B2311(Table
12).
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Table 12. Change from baseline in NPI-10 total score at Week 24 (Study B2315-ITT-LOCF and ITT-OC populations; Study B2311-ITT+RDO and OC populations)
Efficacy of the Exelon/Prometax patch at Weeks 52 and 76 in Study B2315
Cognition
Improvement in cognition, as measured by mean change from baseline in MDRS total score, was still
evident at Week 52 in the Exelon/Prometax patch group (1.3 points). At Week 76, a decrease
(worsening) in the mean MDRS total score just below baseline was observed for the ITTLOCF and ITT-
OC populations in the Exelon/Prometax patch group (-1.4 and -1.6 points, respectively) (Table 13).
Taking into account the mean ADAS-cog scores at Week 24 in the placebo group of Study B2311 (1.0
point below baseline in the OC population and the expected rate of disease progression, the minor
decrease in MDRS total score in the Exelon/Prometax patch group at Week 76 indicates that the effect
of Exelon/Prometax patch persisted over the entire study duration.
Table 13. Change from baseline in MDRS total scores at Weeks 52 and 76 (Study B2315-ITT-LOCF and ITT-OC populations)
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Function (activities of daily living)
Mean ADSC-ADL total scores continued to decline in the Exelon/Prometax patch group at Week 52 and
Week 76 (-5.4 and -7.8 points, respectively) in the ITT-LOCF population; similar results were observed
in the ITT-OC population (Table 14). However, this worsening in activities of daily living should be
considered in the context of the 3.6 point decline in mean ADSC-ADL total scores observed in the
placebo group at Week 24 in Study B2311 (Table 11).
Table 14. Change from baseline in ADCS-ADL total score at Weeks 52 and 76 (Study B2315-ITT-LOCF and ITT-OC populations)
Additional analyses on MDRS, ADAS-cog and ADL
To further take into account the absence of a placebo group in Study B2315, statistical modelling was
performed to compare treatment groups across studies in one common model.
Results of these analyses confirm the findings of the already reported descriptive analyses i.e. that the
capsule is more efficacious at certain timepoints, but also shows that there is an advantage of the
patch against placebo.
The following describes the modelling approach taken:
In order to evaluate the efficacy of Exelon/Prometax patch compared to placebo, an analysis of
repeated measures for change from baseline cognitive outcome measures (MDRS for B2315, ADAScog
for B2311) using the pooled data from studies B2315 and B2311/E1 was carried out. For Study
B2311E1 only the patients who had been treated with Exelon/Prometax capsule during the core study
B2311 were included. The mean change from baseline for each outcome measure (MDRS and ADAS-
cog) was standardized via division by the standard deviation of all observation per time point within
study and treatment group. The analysis model included the terms of treatment, time, study, and
treatment by time interaction. Graphs for the mean observed and predicted standardized efficacy
parameters change from baseline by treatment and visit were also produced. A similar analysis
(without standardization) was performed for the efficacy parameter ADCS-ADL.
This analysis was performed on the pooled Study B2315 and Studies B2311/E1 ITT population which
includes Study B2315 and study B2311 ITT Observed Case (OC) patients as defined in the individual
study report, and Study B2311E1 Observed Case (OC) patients as defined in the B2311E1study report.
This model allows to inferentially compare treatments (Exelon/Prometax capsule vs. patch,
Exelon/Prometax capsule vs. placebo and Exelon/Prometax patch vs. placebo at different time points),
thus providing a more formalized structure for the treatment comparisons and complement the
descriptive analyses already submitted in the original summary documents of the registration dossier.
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from a given subject is "unstructured" there is no interaction between treatment and study, which
implies that the time profile of the population-average response to treatment is assumed to have the
same shape for the same treatment in different trials. Since Exelon/Prometax capsule is the only
common treatment used in trials Study B2315 and Studies B2311/E1, this means that the response to
Exelon/Prometax capsule can differ in magnitude, but is assumed to have the same shape in these
trials.
The results of these analyses indicate that for the cognitive domain, both the Exelon/Prometax capsule
and the Exelon/Prometax patch are significantly better than placebo at Week 24 and that
Exelon/Prometax capsule is always numerically superior to the Exelon/Prometax patch and significantly
better at Weeks 16, 52 and 76 (Table 15, Figure 1-1). For the functional domain these analyses show
that Exelon/Prometax capsule is significantly better than placebo at Week 24, Exelon/Prometax patch
is numerically superior to placebo at Week 24 and Exelon/Prometax capsule is always numerically
superior to the Exelon/Prometax patch and significantly better at Weeks 52 and 76 (Table 16, Figure 1-
2).
Table 15. Repeated measures mixed model analysis for standarized cognitive scale (MDRS and ADAS-cog) change from baseline by visit (combined B2315 and B2311 ITT population)
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Table 16. Repeated measures mixed model analysis for ADCS-ADL change from baseline by visit (combined B2315 and B2311 ITT population)
Overall efficacy discussion
The CHMP noted that the objective of Study CENA713B2315 was to provide long-term safety data for
Exelon/Prometax capsule and transdermal patch treatments, in particular the effect of
Exelon/Prometax on worsening of the underlying motor symptoms of Parkinson’s disease (PD), in
patients with mild to moderately severe dementia associated with PD. The MAH extended the scope of
this study to include an Exelon/Prometax patch treatment arm to assess the risk-benefit ratio of the
patch in PDD. This study used a randomized, open-label, parallel-group design. Efficacy was a
secondary endpoint. Thus, this study was not designed as a non-inferiority efficacy study.
No significant differences in baseline demographic and background characteristics were observed
between the 2 treatment patients. 583 patients were randomized, 295 for Exelon/Prometax capsules
and 288 for Exelon/Prometax patch. Of these, 359 (61.6%) completed the study. The most common
reason for study discontinuation in both groups was Adverse Events (AEs) (23.7% in the
Exelon/Prometax capsules group and 20.8% in the Exelon/Prometax patch group). Unsatisfactory
therapeutic effect was observed in 1.4% of patients in the Exelon/Prometax capsule group compared
to 4.2% in the Exelon/Prometax patch group.
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Both Exelon/Prometax groups showed an effect in the treatments of clinical symptoms of PDD
(cognition, executive functioning/visuospatial skills, behaviour). Similar results (but in favour of
Exelon/Prometax capsules in all domains, except for NPI) were observed in both treatments during the
first 24 weeks of the study; however, the Exelon/Prometax capsule was clearly superior to the
Exelon/Prometax patch at week 52 and 76.
Taking into account the open nature of this study with absence of placebo group and the absence of
predefined non-inferiority hypothesis, the numerical inferiority, sometimes statistically significant, of
the transdermal patch group compared to the hard capsules, is difficult to interpret.
The findings of the PK investigation conducted in a sub-group of Parkinson patients in study
ENA713B2315 showed a systemic exposure to rivastigmine is of the same magnitude than that
observed in Alzheimer disease patients under similar dosing conditions i.e. once daily repeated
application of the 10 cm2 patch. However, it was considered of concern that the doses used for the
patch and the capsule in Study B2315 resulted in estimated substantially higher Cmax in the patients
on capsule therapy which could have explained that the efficacy results of the different analysis from
the main study B2315 indicate that for the cognitive and functional domains Exelon capsules are
superior to Exelon patch in dementia associated with Parkinsons disease.
Since Alzheimer disease and dementia in Parkinson disease have different underlying aetiologies and
pathogenetic mechanisms, patients might consequently, react differently to therapy. Therefore, the
dose/response relationship could be different in PDD and ADD, and the respective role of Cmax and
AUC in efficacy must be further clarified to allow bridging of efficacy based on PK data.
To shed more light on the results the MAH has compared and analysed the results from the Study
B2315 with the 24 week, double-blind, placebo controlled Study B2311. The ITT-LOCF results for the
patch in Study B2315 have been compared to ITT-RDO results for placebo in Study B2311 at Week 24.
These analysis showed that relative to the placebo arm in the pivotal Study B2311, treatment with the
Exelon/Prometax patch in Study B2315 showed an improvement in patient’s cognitive abilities,
considerably less deterioration in activities of daily living and behavioural symptoms over 6 months.
However, even if this indirect comparison favours the patch, this comparison has its limitations.
Overall efficacy conclusion
The results of the different analysis indicate that efficacy of Exelon/Prometax patch was observed
across multiple domains in PDD patients for the cognitive and functional domains, but also that
Exelon/Prometax capsules are superior to Exelon/Prometax patch. Nevertheless, Study 2315 was an
open study that was not design to assess efficacy and a non-inferiority limit was not pre-defined. All
the analysis provided are descriptive and they are based according to a model without taking account
the imprecisions of each study.
The indirect comparisons showed that Exelon/Prometax patch is superior to placebo treatment and that
Exelon/Prometax patch in Study B2315 led to improvements in patient’s cognitive abilities (including
executive function), behavioural symptoms and considerably less deterioration in activities of daily
living over 24 weeks. However, the interpretation of these results has its limitations.
Furthermore, the findings of the PK investigation conducted in a sub-group of Parkinson patients in
study ENA713B2315 need to be further clarified to allow bridging of efficacy based on PK data.
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3.1.2. Clinical safety
3.1.2.1. Safety Analysis
The objective of the safety analysis made by the MAH is to present the safety results of Study B2315 in
the context of those reported in the pivotal registration Study B2311 and its long-term extension Study
B2311E1. Therefore, the safety results of Study B2315 are presented by the MAH side-by-side with
those from Studies B2311 and B2311E1 according to the following groupings:
Dataset A:
• Study B2315: 76-week safety data
• Studies B2311 plus B2311E1: 48-week safety data (core and extension phase)
Dataset B:
• Study B2315: Week 0 to Week 24 safety data
• Study B2311: Week 0 to Week 24 safety data (core phase)
This data set is the key dataset used by the MAH to support the claim to extend the indication for the
Exelon/Prometax patch to patients with PDD.
Dataset C:
• Study B2315: Week 24 to Week 48 safety data
• Study B2311E1: Week 24 to Week 48 safety data (extension phase)
Dataset D:
• Study B2315: >48 weeks safety data
A primary objective of study B2315 was to assess the long-term effect of Exelon/Prometax (capsule
and patch) on worsening of the underlying motor symptoms of Parkinson’s disease in patients with
mild to moderately severe dementia associated with PD. To accomplish this objective, data from the
following 3 sources were analyzed by the MAH as follows:
• Predefined AEs due, or potentially due, to worsening of PD motor symptoms (tremor, muscle
rigidity, bradykinesia, fall) in studies B2315, B2311, and B2311E1.
• The motor score, collected from the UPDRS part III scale (study B2315)
• The use of anti-parkinsonian medication (study B2315)
It should be underlined that comparison of the safety results between these two studies is indirect.
Patient exposure
Concomitant medications
o CNS-related concomitant medications
CNS-related concomitant medications were used by a similar percentage of patients in all treatment
groups in all studies (91.6% - 100%). ‘Dopa and dopa derivatives’ represented the most widely used
ATC class in all treatment groups and in all studies. In study B2315, ‘dopa and dopa derivatives’were
used by 98.6% of patients in the Exelon/Prometax capsule group, and in 97.6% of patients in the
Exelon/Prometax patch group.Other CNS medications used during this study in the Exelon/Prometax
patch group were antidepressants (35.8%), antipsychotics (30.9%), and hypnotics/anxiolytics
(23.3%).
o Newly introduced CNS medication
In the Exelon/Prometax patch group, 36.8 % of the patients began new CNS medications during the
study. Of these, 21.2% were taking antiparkinsonian agents, 7.3% were taking antidepressants,
10.8% antipsychotics, and 8.0% were taking hypnotics/anxiolytics. In comparison, in the
Exelon/Prometax capsule group, 27.6% of the patients began new CNS medications during the study.
Of these, 17.7% were taking antiparkinsonian agents 7.1% were taking antipsychotics, 4.8%
hypnotics/anxiolytics, and 4.1% were taking antidepressants.
o Discontinuation of CNS medications after the start of the study
For any CNS-related concomitant medication, a higher percentage of patients in the Exelon/Prometax
patch group (34.4% of patients) had discontinued their CNS-related concomitant medication than in
the Exelon/Prometax capsule group (21.4% of patients). In particular, an increased incidence of
discontinuation was seen with antidepressants (Exelon/Prometax patch, 8.0% of patients and
Exelon/Prometax capsule, 4.4% of patients), antiparkinsonian agents (Exelon/Prometax patch, 25.3%
of patients and Exelon/Prometax capsule 13.9% of patients), and hypnotic/anxiolytic agents
(Exelon/Prometax patch, 6.9% of patients and Exelon/Prometax capsule, 4.8% of patients).
o Dopaminergic agents
In the Exelon/Prometax patch group, more patients had newly introduced and discontinued
antiparkinsonian agents after the start of the study.
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A total of 97.6% of the patients in the Exelon/Prometax patch group used any L-Dopa medication
during the study B2315. L-Dopa medications were newly introduced in 15.6% of patients in the
Exelon/Prometax patch group, compared to 10.2% of patients in the Exelon/Prometax capsule group.
Overall, an increase in L-Dopa dose was seen in both groups. For patients in the Exelon/Prometax
capsule group who completed the study, a decrease in L-Dopa dose was seen at the end of study.
However, for patients the Exelon/Prometax capsule group who discontinued the study, an increase in
the L-Dopa dose was seen at the end of study. For patients in the Exelon/Prometax patch group, an
increase in the L-Dopa dose was observed by the end of study regardless of completion status.
The MAH was requested to further discuss the fact that more patients began new CNS medications
(antiparkinsonian agents, antidepressants, antipsychotics, hypnotics/anxiolytics) during study B2315 in
the Exelon/Prometax patch group, the fact that a higher percentage of patients in the Exelon/Prometax
patch group had discontinued their CNS-related concomitant medication than in the Exelon/Prometax
capsule group, in particular with regard to data on worsening effect on the PD symptoms and the fact
that a higher percentage of patients in the Exelon/Prometax patch group were newly treated by L-Dopa
medications than in the Exelon/Prometax capsule group.
The MAH provided a detailed analysis and the CHMP were reassured that the concerns initially rose,
may be explained by the patient’s characteristics at baseline (medication, medical history). In addition
no significant difference may be considered between Exelon/Prometax formulations regarding new CNS
medications, discontinued CNS medications, and new L-Dopa medications.
o Withdrawals
The most common reasons for study discontinuation in the both groups were AEs (23.7% for
Exelon/Prometax capsule and 20.8% for patch), withdrawal of consent (6.1% and 8.3%, respectively),
and death (3.7% and 3.8%, respectively). A higher percentage of patients in the Exelon/Prometax
patch group (4.2%) discontinued the study due to an unsatisfactory therapeutic effect compared to the
patients in the Exelon/Prometax capsule group (1.4%).
The MAH was requested to further discuss the fact that a higher percentage of patients in the
Exelon/Prometax patch group (4.2%) discontinued the study due to an unsatisfactory therapeutic
effect compared to the patients in the Exelon/Prometax capsule group (1.4%).
The MAH clarified that for the majority of the patients who were discontinued due to lack efficacy, the
overall duration of treatment with the Exelon/Prometax patch and Exelon/Prometax capsule was
short(treatment with the target dose was either very brief or not achieved in many cases). The short
duration and suboptimal dosing no doubt contributed to the Investigator’s assessment of
“unsatisfactory therapeutic effect” in both treatment groups. However, the fact that improvement was
shown on 1 or more of the efficacy scales for more than half the patients in both treatment groups
suggest that, in some cases, reasons other than lack of efficacy may have played role in the
discontinuation of these patients. Based on this case review, the significance of the imbalance between
the treatment groups is not considered meaningful.
The CHMP agreed with the MAH’s conclusion.
Adverse events
The most frequently affected system organ classes in study B2315 were gastrointestinal disorders,
nervous system disorders and psychiatric disorders and the most common AEs were nausea, vomiting,
and parkinsonian rest tremor. These events were reported in the highest percentage of patients during
the initial 24 weeks of treatment in both the Exelon/Prometax capsule and the Exelon/Prometax patch
groups. Except for the rate of fall, which remained relatively unchanged in the Exelon/Prometax
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capsule group and in the Exelon/Prometax patch group after Week 24, the percentages of patients with
these events trend to progressively decrease over time.
The most frequently reported AEs in the Exelon/Prometax capsule group were nausea, vomiting,
Parkinsonian rest tremor, and fall; with the exception of fall, the incidence rates of these events were
substantially lower in the Exelon/Prometax patch group.
The most frequently reported AEs in the Exelon/Prometax patch group were fall, application site
erythema, Parkinsonian rest tremor and confusional state:
- the most frequent AE in the Exelon/Prometax patch group was fall, which was reported in 20.1% of
patients compared to 17.0% in the Exelon/Prometax capsule group during the 76 weeks of study
B2315; this was markedly higher than in patients treated with the Exelon/Prometax capsule over the
48 weeks of studies B2311+B2311E1 (7.7%).
- psychiatric events, in particular depression during the initial 24 weeks of treatment., were reported
most frequently by patients in the Exelon/Prometax patch group (45.1% vs 32% capsule).
- a total of 25.3% of patients in the Exelon/Prometax patch group reported an application site reaction
AE. over the 76 weeks of study B2315 The most frequently reported event was application site
erythema (13.9% of patients).
Analysis by dataset
o Common AEs and affected SOCs in Dataset A (full duration 76 and 48 week
safety data; Study B2315 & Studies B2311+B2311E1)
Table 18. Number (%) of patients with adverse events (at least 5% in any treatment group) by SOC, preferred term, treatment group and study (Dataset A: full duration 76 and 48 weeks- safety population)
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o Common AEs and affected SOCs in Dataset B (Initial 24-week, open-label/ double-
blind safety data; Studies B2315 & B2311)
Table 19. Number (%) of patients with adverse events (at least 5% in any treatment group) by SOC, preferred term, treatment group, and study (Dataset B: Initial 24 weeks- safety population)
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o Common AEs and affected SOCs in Dataset C (Weeks 24-48 open-label safety
data; Studies B2315 & B2311E1)
Table 20. Number (%) of patients with adverse events (at least 5% in any treatment group) by SOC, preferred term, treatment group, and study (Dataset C: 24 to 48 weeks- safety population)
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o Common AEs and affected SOCs in Dataset D (>48 weeks, open-label safety data;
Study B2315)
Table 21. Number (%) of patients with adverse events (at least 5% in any treatment group) by SOC, preferred term, treatment group, and study (Dataset D: >48 weeks- safety population)
Consistently with the known safety profile of Exelon, the frequently affected SOCs over 76 weeks were
for capsule gastrointestinal disorders (61.9%), nervous system disorders (59.2%), and psychiatric
disorders (32%), and for patch, nervous system disorders (54.2%), psychiatric disorders (45.1%), and
general disorders and administration site conditions (37.5%).
The most frequently reported AEs in the Exelon/Prometax capsule group were nausea (40.5%),
vomiting (15.3%), parkinsonian rest tremor (24.5%), and fall (17%).
The most frequently reported AEs in the Exelon/Prometax patch group were fall (20.1%), application
site erythema (13.9%), Parkinsonian rest tremor (9.7%) and confusional state (9.4%).Psychiatric
events were reported most frequently by patients in the Exelon/Prometax patch group (45.1% vs 32%
for capsule), particularly depression (8% vs 2% for capsule).
The incidence of gastrointestinal AEs was significantly lower in the Exelon/Prometax patch
group(29.2%) than in the Exelon/Prometax capsule group 61.9%), and application site reaction AEs
were commonly reported with Exelon/Prometax patch over the 76 weeks of study B2315. The
percentage of patients in the Exelon/Prometax patch group with an AE of parkinsonian rest tremor
over the 76 weeks was lower than in the Exelon/Prometax capsule group (9% vs 24.5%, respectively),
and similar to the percentage of patients in the Exelon/Prometax capsule with tremor (including
Parkinson’s rest tremor) reported over the 48 weeks of studies B2311/B2311E1.
The highest incidence rates of AEs were observed during the initial 24 weeks of treatment in both the
Exelon/Prometax capsule and Exelon/Prometax patch groups.
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In conclusion, the Exelon/Prometax capsule safety data and the Exelon/Prometax patch safety data
from study B2315 are consistent with the known safety profile of Exelon/Prometax in PD population,
and no major differences in safety profile (excepted the higher frequency of tremor with oral form) are
observed in this study between the two Exelon/Prometax formulations.
o Severity of AEs
In study B2315, the incidence rates of mild, moderate and severe AEs were similar in the
Exelon/Prometax capsule group and the Exelon/Prometax patch group (respectively, mild 15.6%vs
12.5%, moderate 52.4% vs 50.3%, severe 25.2% vs 28.5%).
The incidence rates of moderate and severe AEs in both treatment groups in study 2315 were
generally about 10 - 20% higher than those in the Exelon/Prometax treatment groups of study B2311
and study B2311E1, which is according to the MAH, not unexpected with longer study duration.
o Serious adverse events and deaths
Table 22. Number of patients who died or experienced other serious or clinically significant adverse events (Study B2315- Safety population)
o Deaths
In study B2315, a total of 22 patients died during the 76-week study period (11 patients in each
treatment group). The frequency of deaths was 3.7% (11/294) for Exelon/Prometax capsule and 3.8%
(11/288) for Exelon/Prometax patch. Of these, none was attributed to the use of study drug by the
investigator, except for 1 death in the Exelon/Prometax patch group reported as suspected to be
related to the study drug (acute myocardial infarction).
Pneumonia was the most common reason for death (Exelon/Prometax capsule, 5 patients and
Exelon/Prometax patch, 2 patients). In the Exelon/Prometax patch group, 1 patient died due to
progression of PD. Deaths due to pulmonary embolism were reported in 2 patients (1 patient in each
The number (%) of patients in Dataset A with predefined worsening of PD motor symptoms are
presented in the table below:
Table 23. Number (%) of patients with worsening of Parkinson’s disease motor symptoms by treatment group (Dataset A: full duration 76 and 48 weeks- safety population)
During the 76 weeks of study B2315, a total of 36.4% of patients in the Exelon/Prometax capsule
group and 32.3% of patients in the Exelon/Prometax patch group reported predefined AEs due to
worsening of PD motor symptoms. During the 48 weeks of study B2311 + study B2311E1, the rates
were 20.2% in the Exelon-Exelon/Prometax group and 19.6% in the Placebo-Exelon/Prometax group.
In study 2315, tremor was reported in a higher percentage of patients in the Exelon/Prometax capsule
group than in the Exelon/Prometax patch group (24.8% vs. 10.1%, respectively). In study B2311 +
study B2311E1, the percentage of patients with an AE of tremor in either the Exelon/Exelon/Prometax
or the Placebo/Exelon/Prometax group (11.3% and 11.2%, respectively) was similar to that reported
in the Exelon/Prometax patch group.
In study B2315, a similar percentage of patients in the Exelon/Prometax capsule and Exelon/Prometax
patch groups experienced muscle rigidity (4.4 % and 5.2%, respectively) or bradykinesia (5.1% and
6.3%, respectively). A higher percentage of patients treated with the Exelon/Prometax patch reported
an AE of fall than those treated with the Exelon/Prometax capsule (20.1% vs. 17.0% respectively).
The percentages of patients with AEs of muscle rigidity, fall or bradykinesia in either treatment group
in study B2315 were higher than those reported for the Exelon/Prometax capsule group and the
Placebo-Exelon/Prometax group in study B2311 + study B2311E1.
Worsening of Parkinson’s disease motor symptoms in Dataset B (Initial 24-
The number (%) of patients in Dataset B with predefined worsening of PD motor symptoms are
presented in the table below:
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Table 24. Number (%) of patients with worsening of Parkinson’s disease motor symptoms by treatment group (Dataset B: Initial 24 weeks- safety population
In study B2315 (weeks 0-24), the incidence of predefined AEs due, or potentially due, to worsening of
PD motor symptoms was higher in the Exelon/Prometax capsule group (29.3%) than in
Exelon/Prometax patch group (20.5%), both being higher than the rates observed in the
Exelon/Prometax capsule group (17.7%) and the placebo group (10.6%) in study B2311.
During the first 24 weeks of Study B2315, tremor was reported in a higher percentage of patients in
the Exelon/Prometax capsule group than in the Exelon/Prometax patch group (22.8% vs. 7.3%,
respectively). During the 24-week study B2311, 10.2% of patients in the Exelon/Prometax capsule
group and 3.9% in the placebo group reported an AE of tremor.
In study B2315, a similar percentage of patients in the Exelon/Prometax capsule and Exelon/Prometax
patch groups experienced muscle rigidity (3.1 % and 2.8%, respectively) or bradykinesia (3.1% and
3.5%, respectively). A higher percentage of patients treated with the Exelon/Prometax patch reported
an AE of fall than those treated with the Exelon/Prometax capsule (11.8% vs. 9.9%, respectively).
The percentages of patients with AEs of muscle rigidity, fall or bradykinesia in either treatment group
in study B2315 were higher than those reported for the Exelon/Prometax capsule group and the
placebo group in study B2311.
Worsening of Parkinson’s disease motor symptoms in Dataset C (Weeks 24-
The number (%) of patients in Dataset C with predefined worsening of PD motor symptoms are
presented in the table below:
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Table 25. Number (%) of patients with worsening of Parkinson’s disease motor symptoms by treatment group (Dataset C: Weeks 24 to 48- safety population)
During the 24 to 48 weeks of study B2315, tremor was reported in a higher percentage of patients in
the Exelon/Prometax capsule group than in the Exelon/Prometax patch group (4.8% vs. 1.7%,
respectively). In study B2311E1, the percentage of patients with an AE of tremor was 3.8% in the
Exelon-Exelon/Prometax group and 12.2% in the Placebo-Exelon/Prometax group.
In study B2315, a similar percentage of patients in the Exelon/Prometax capsule and Exelon/Prometax
patch treatment groups experienced muscle rigidity (1.3 % and 2.1%, respectively) or bradykinesia
(1.3% and 2.1%, respectively). A lower percentage of patients treated with the Exelon/Prometax patch
reported an AE of fall than those treated with the Exelon/Prometax capsule (6.8% vs. 8.3%,
respectively).
The percentages of patients with AEs of muscle rigidity, fall or bradykinesia in either treatment group
in study B2315 were higher than those reported for the Exelon-Exelon/Prometax or Placebo-
Exelon/Prometax groups in study B2311E1.
Worsening of Parkinson’s disease motor symptoms in Dataset D (> 48
weeks, open-label safety data; Study B2315)
The number (%) of patients in Dataset D with predefined worsening of PD motor symptoms are
presented in the table below:
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Table 26. Number (%) of patients with worsening of Parkinson’s disease motor symptoms by treatment group (Dataset D: >48 weeks- safety population)
During the period of treatment after week 48, a similar percentage of patients in the Exelon/Prometax
capsule and Exelon/Prometax patch groups reported tremor (3.4% and 2.0%, respectively). This was
also the case for muscle rigidity (1.5 % and 2.0%, respectively), fall (8.4% vs. 9.3%, respectively);
bradykinesia was reported by and 2.0% of percentage of patients in both groups.
Time-to-first PD motor symptoms
In study B2315, analysis of the time-to-first PD motor symptoms AEs (tremor, muscle rigidity,
bradykinesia, and fall) was performed using the Kaplan-Meier method of life-table estimation. This
analysis was not performed in study B2311 or study B2311E1.
Overall, the greatest between-treatment difference in the time-to-first PD motor symptom during the
first 24 weeks of therapy was for tremor. At week 24, the survival function for the time-to-first PD
motor symptom of tremor in the Exelon/Prometax capsule group was 0.758 (95% confidence interval
(CI) =0.706, 0.809), while for the Exelon/Prometax patch it was approximately 0.924 (95% CI=0.893,
0.955) (observed at week 25)
Little or no differences between the treatment groups were seen in the time-to-first AEs of muscle
rigidity, bradykinesia, and fall.
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Discontinuations rate due to worsening of Parkinson’s disease motor symptoms
In study B2315, the overall discontinuation rate due to worsening of PD motor symptoms was 4.4% for
the Exelon/Prometax capsule group and 2.4% for the Exelon/Prometax patch group. In the
Exelon/Prometax capsule group, tremor was the most frequently reported PD motor symptom AE that
led to study discontinuation (2.4%), while fall was the most frequently reported AE leading to
discontinuation in the Exelon/Prometax patch group (1.4%). Few patients in each group discontinued
the study because of muscle rigidity (0.3% in each) or bradykinesia (1% vs. 0.0%, respectively).
These data are similar to what was observed in Study B2311 and Study B2311E1.
Table 27. Discontinuation rate due to worsening of Parkinson’s disease motor symptoms, by treatment group (Study B2315- safety population)
Time to first event of tremor leading to study discontinuation
In study B2315, analysis of the time-to-first PD motor symptom AEs (tremor, muscle rigidity,
bradykinesia, and fall) leading to study discontinuation was performed using the Kaplan-Meier method
of life-table estimation. Overall, little or no changes were seen between the Exelon/Prometax capsule
and Exelon/Prometax patch groups or the time-to-first PD motor symptom AEs of tremor, muscle
rigidity , bradykinesia , and fall that led to discontinuation of the study drug.
o UPDRS Part III scores in Study B2315
UPDRS Part III: Total
UPDRS Part III total scores (used as a safety parameter to assess changes in PD motor symptoms)
were compared at weeks 8, 16, 24, 52, and 76 in both groups. The changes from baseline are
summarized below:
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Table 28. Change from baseline in UPDRS Part III total score, by treatment group and visit (Study B2315- safety population)
Improvements from baseline were seen with the Exelon/Prometax capsule at Weeks 8, and in the
Exelon/Prometax patch group at Weeks 8, 16, and 24. A small and similar deterioration was observed
in both groups at weeks 52 and 76.
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UPDRS Part III: Patients who experienced worsening of Parkinson’s Disease motor symptoms
Summary statistics for the UPDRS Part III total scores and Part III item scores in patients who
experienced worsening of PD motor symptoms were provided for baseline, week 8, week 16, 24, 52,
and 76.
In the subgroup of patients who reported predefined AEs due, or potentially due to worsening of PD
motor symptoms, similar results in the UPDRS Part III total scores were seen to those results observed
in the total safety population. In general with long-term treatment, the changes from baseline in the
UPDRS Part III total scores with the Exelon/Prometax capsule increased slightly or remained
unchanged in patients who experienced worsening of their PD. At week 76, the change from baseline
was 2.6 in the UPDRS Part III total scores.
Patients in the Exelon/Prometax patch group who experienced worsening of their PD motor symptoms
also continued to show improvements or remain unchanged. At week 76, the change from baseline
was 3.1 in the UPDRS Part III total scores. For the patients in the Exelon/Prometax patch group who
experienced worsening of PD, slightly numerically greater improvements were seen in the UPDRS Part
III total scores at weeks 8 and 24 compared to those patients in the Exelon/Prometax capsule group.
Statistically significant differences were seen in the changes from baseline in the UPDRS Part III total
scores at week 16 in the Exelon/Prometax patch group compared to the Exelon/Prometax capsule
group (−2.2 vs. 1.0, respectively).
Other than a slight improvement from baseline at week 76 in the ‘tremor at rest’ sub-item score in the
Exelon/Prometax patch group (-0.6), and in the ‘rigidity’ sub-item score in the Exelon/Prometax
capsule group (-0.1), changes from baseline at week 76 ranged from 0.0 to 0.4 in the
Exelon/Prometax capsule group and 0.0 to 0.5 in the Exelon/Prometax patch group.
Summary of worsening of Parkinson’s disease motor symptoms
During the 76 weeks of study B2315, a total of 36.4% of patients in the Exelon/Prometax capsule
group and 32.3% of patients in the Exelon/Prometax patch group reported predefined AEs due, or
potentially due to worsening of PD motor symptoms. The most commonly reported predefined AEs
were tremor in the Exelon/Prometax capsule group (24.8% vs 9.7% patch ) and fall in the
Exelon/Prometax patch group (20.1% vs 17% patch). A similar percentage of patients in the
Exelon/Prometax capsule and Exelon/Prometax patch groups experienced muscle rigidity (4.4% and
5.2%, respectively) or bradykinesia (5.1% and 6.3%, respectively)
The majority of events of tremor, muscle rigidity, bradykinesia, or fall occurred during the first 24
weeks of treatment. Except for the rate of fall, which remained between 8.3% and 8.4% in the
Exelon/Prometax capsule group and 6.8% to 9.3% in the Exelon/Prometax patch group after week 24,
with these events progressively decreased during weeks 24 to 48 and after week 48.
During the first 24 weeks of treatment, a significant higher percentage of patients in the
Exelon/Prometax capsule group from study B2315 reported an AE of tremor compared to the
Exelon/Prometax capsule group in study B2311 (22.8% vs. 10.2%, respectively). This was also the
case for an AE of fall in both the Exelon/Prometax capsule and Exelon/Prometax patch groups (9.9%
and 11.8%, respectively vs. 5.8%)
The overall discontinuation rate due to these predefined AEs or due to tremor was low (oral : 4.4% /
patch : 2.4%) and similar to those observed in studies B2311 and B2311E1. In the Exelon/Prometax
capsule group, tremor was the most frequently reported PD motor symptom AE that led to study
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discontinuation (2.4% vs 0.7% patch), while fall was the most frequently reported AE leading to
discontinuation in the Exelon/Prometax patch group (1.4%). Few patients in each group discontinued
the study because of muscle rigidity (0.3% in each) or bradykinesia (1% vs. 0.0%, respectively).
These data are similar to what was observed in study B2311 and study B2311E1
o Application site reactions
In study B2315, application site skin reactions and irritations, defined as either application site
erythema, pruritus, hypersensitivity, eczema, irritation, and inflammation was reported by 25.3% of
the patients who were treated with Exelon/Prometax patch, with application site erythema reported
most often (13.9%).
Application site reaction AEs lead to discontinuations in 3.8% (11/288) of patients over 76 weeks.
These events included the following: erythema in 4 (1.4%) patients, irritation in 3 (1.0%) patients,
and single-patient events of hypersensitivity, inflammation, eczema or pruritus.
Laboratory findings (study B2315)
Clinical chemistry, haematology, urinalysis, special tests
Overall, no clinically relevant changes in laboratory values were observed in study B2311. As a result,
laboratory evaluations were only performed at screening and baseline in Study B2315.
Electrocardiograms, vital signs, body weight and physical examinations
No clinically relevant electrocardiogram (ECG) changes were observed in study B2311. As a result, ECG
data were only recorded as source data in Study B2315 and not captured in the clinical database.
Significant decreases in body weight (≥7% from baseline) occurred in a higher percentage of patients
treated with the Exelon/Prometax patch compared to the Exelon/Prometax capsule (10.4% vs. 7.8%,
respectively).
The results of the Schellong Test for orthostatic hypotension at weeks 8, 24, 52, and 76 showed no
increases in the incidences of orthostatic hypotension over time from baseline with Exelon/Prometax
capsule or Exelon/Prometax patch treatment.
In both Exelon/Prometax groups, there were similar mean decreases up to 3.6 mmHg in supine systolic
BP. Greater mean decreases were seen in standing systolic BP in the Exelon/Prometax patch group
compared to the Exelon/Prometax capsule group (3.9 mmHg vs. 1.6 mmHg, respectively). However,
the percentage of patients who had notable decreases in standing systolic BP was greater in the
Exelon/Prometax capsule group compared to the Exelon/Prometax patch group (3.1% vs. 0.7%,
respectively).
In the Exelon/Prometax capsule group, small decreases in mean standing (1.2 beats per minute
[bpm]) and supine (0.3 bpm) pulse rate were seen. Small increases were seen in mean standing (0.3
bpm) and supine (0.7 bpm) pulse rate for the Exelon/Prometax patch group. Overall, few patients had
notable increases or decreases in supine or standing pulse rates.
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Discussion on safety
The 76-week open-label study B2315 was designed to provide long-term safety data, in particular the
effect of Exelon/Prometax on worsening of the underlying motor symptoms of Parkinson’s disease in
patients with PDD.
Regarding long term safety data, study B2315 is considered well designed to answer to the request.
The results of this study identify no unexpected adverse events during long-term treatment with
Exelon/Prometax capsule or Exelon/Prometax patch in PD population.
Consistently with the known safety profile of Exelon, the frequently affected SOCs over 76 weeks were
for Exelon/Prometax capsule gastrointestinal disorders (61.9%), nervous system disorders (59.2%),
and psychiatric disorders (32%), and for Exelon/Prometax patch, nervous system disorders (54.2%),
psychiatric disorders (45.1%), and general disorders and administration site conditions (37.5%).
The most frequently reported AEs in the Exelon/Prometax capsule group were nausea (40.5%),
vomiting (15.3%), parkinsonian rest tremor (24.5%), and fall (17%).
The most frequently reported AEs in the Exelon/Prometax patch group were fall (20.1%), application
site erythema (13.9%), Parkinsonian rest tremor (9.7%) and confusional state (9.4%).Psychiatric
events were reported most frequently by patients in the Exelon/Prometax patch group (45.1% vs 32%
for capsule), particularly depression (8% vs 2% for capsule). A slightly higher percentage of patients
treated with the Exelon/Prometax patch reported an AE of fall than those treated with the
Exelon/Prometax capsule (20.1% vs. 17.0% respectively).The incidence of gastrointestinal AEs was
significantly lower in the Exelon/Prometax patch group than in the Exelon/Prometax capsule group,
and application site reaction AEs were very commonly (25.3%) reported with Exelon/Prometax patch
over the 76 weeks of study B2315. The percentage of patients in the Exelon/Prometax patch group
with an AE of Parkinson’s rest tremor was lower than in the Exelon/Prometax capsule group, and
similar to the percentage of patients in the Exelon/Prometax capsule with tremor (including Parkinson’s
rest tremor) reported over the 48 weeks of studies B2311/B2311E1.
The highest incidence rates of AEs, including majority of worsening of PD motor symptoms, were
observed during the initial 24 weeks of treatment in both the Exelon/Prometax capsule and
Exelon/Prometax patch groups. Incidences of worsening of PD motor symptoms trend to decrease
during weeks 24 to 48 and after week 48, excepted the AE of fall, remaining between 8.3% and 8.4%
in the Exelon/Prometax capsule group, and between 6.8% and 9.3% in the Exelon/Prometax patch
group.
The overall discontinuation rate due to these worsening of PD motor symptoms was low (capsule :
4.4% ; patch : 2.4%) and similar to those observed in studies B2311 and B2311E1. In the
Exelon/Prometax capsule group, tremor was the most frequently reported PD motor symptom AE that
led to study discontinuation (2.4% vs 0.7% patch), while fall was the most frequently reported AE
leading to discontinuation in the Exelon/Prometax patch group (1.4%).
In conclusion, the Exelon/Prometax capsule safety data and the Exelon/Prometax patch safety data
from study B2315 are overall consistent with the known safety profile of Exelon/Prometax in PD
population, and no major differences in safety profile (excepted tremor) are observed in this study
between the two Exelon/Prometax formulations.
For the safety analysis, the MAH made a comparison between ADR incidences in study B2315 and
incidences in the Exelon/Prometax capsule or placebo groups from the pivotal double-blind core study
2311. This was based on the MAH’s consideration that the patient populations, with regard to
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demographic and background characteristics, were sufficiently similar in study B2315 and study B2311
to allow for meaningful comparisons of efficacy and safety outcomes. The only noteworthy difference
was the mean MMSE, which was slightly more pronounced (2 points higher) in Study B2315 than in
Study B2311.
However, to answer to the questions related to the high incidence over 76 weeks of adverse events
due to worsening of PD motor symptoms in both treatment groups in study B2315 (capsule 36.1%,
95% CI [30.6%-41.8%], patch 31.9%, 95% CI [26.6%-37.7%]), in particular tremor for capsule, fall,
bradykinesia and muscle rigidity for both formulations, and related to the important difference with the
projected rate (23% [lower limit 18%, upper limit 28%, 95% confidence interval]), the MAH performed
an additional analysis. This post-hoc review of the data relating to the higher frequency of tremor in
the Exelon capsule group and fall in both treatment groups observed in Study B2315 compared to
Studies B2311/2311E1 did not reveal an explanation for these results. Unlike Study B2311, which was
a pivotal double-blind efficacy and safety study, Study B2315 was open-label and designed as a safety
trial in which the primary objectives were to assess:
*predefined adverse events (AEs) due, or potentially due, to worsening of PD motor symptoms
(tremor, muscle rigidity, bradykinesia, fall)
*study drug discontinuations due to predefined AEs due, or potentially due, to worsening of PD
motor symptoms (tremor, muscle rigidity, bradykinesia, fall)
The setting for Study B2311 was, therefore, quite different from Study B2315 in so far as the
monitoring and reporting of PD-related motor symptoms. During Study B2311, onset or worsening of
these events were no doubt considered by many of the investigators, patients and caregivers to be
part of the disease course and not reported as AEs. In Study B2315, not only was reporting PD motor
symptoms required, but information regarding the possible onset or worsening of these events was
solicited because of their status as a primary endpoint of the Study. This fact together with the open-
label nature of the study would be sufficient to account for the higher reporting rate of these events in
Study B2315 compared to Study B2311.
The CHMP agreed with these conclusions. These considerations may also explain the higher frequency
of tremor with Exelon oral and the higher frequency of fall with both Exelon formulations in study
B2315. Analysis of risk factors for fall did not reveal orthostatic hypotension nor other AEs possibly
related to rivastigmine as a causal factor.
It was also observed that in the Exelon/Prometax patch group, more patients had newly introduced
(21.2% vs 17.7% oral ) and discontinued (25.3% vs 13.9%) antiparkinsonian agents after the start of
the study. L-Dopa medications were newly introduced in 15.6% of patients in the Exelon/Prometax
patch group, compared to 10.2% of patients in the Exelon/Prometax capsule group. However the MAH
provide additional data indicating that the introduction of “new antiparkinsonian medication” was not
driven by worsening of PD motor symptom AEs as some of these patients had just a change in the
dose of their existing medications or a change in the name of the medication being received
No new signal raised from study B2315 regarding application site reactions that occurred at an
expected frequency, based on the known safety profile of Exelon/Prometax patch. However, concern
has been raised from post-marketing data regarding skin reactions with Exelon/Prometax patch. It
appears that rivastigmine may induce two types of skin reactions, mainly application site reactions
(allergic dermatitis, prurit, irritation) due to contact hypersensitivity (Exelon/Prometax patch), but also
generalized allergic reactions due to systemic hypersensitivity to oral rivastigmine, in some patients
previously sensitized by Exelon/Prometax patch. The MAH was requested to discuss in detail the
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mechanism of delayed type hypersensitivity reaction possibly induced by rivastigmine, and to provide
data on rivastigmine cutaneous metabolism, with information on implicated enzymes and metabolites
potentially implicated in the mechanism of hypersensitivity. In addition, the MAH was requested to
further investigate in context of the risk minimisation measures, the possibilities to generalize the use
of allergological tests in case of serious application site reactions, or before switching from patch to
oral formulations in patients developing skin reactions under Exelon/Prometax patch, in order to avoid
the risk of systemic hypersensitivity. The MAH provided an in-depth analysis of the serious cases of
application site reactions reported with Exelon/Prometax, and a detailed research on the use of
allergological testing and desensitization protocols concluding that by contraindicating the use of any
Exelon formulation following occurrence of serious skin reactions additional risk minimization activities
would not be necessary.
The CHMP however was of the opinion that in order to minimize the risk of serious skin reactions, the
MAH should enlarge the proposed contraindication to the use of any Exelon/Prometax formulation if
any skin reaction with Exelon/Prometax patch occurs.
4. Overall conclusion and Benefit-risk assessment
Overall conclusion on efficacy
Exelon capsules administered twice daily are the only available treatment approved for use in patients
with PDD. Compliance with oral dosage regimens is often problematic for patients with PDD and
availability of an Exelon patch would meet a currently unmet need for these patients.
Furthermore, the drug-release characteristics of the Exelon patch would allow for once daily
administration, thus improving patient and caregiver convenience, which may in turn increase patient
acceptability and compliance.
However, even if efficacy for the Exelon/Prometax patch was observed across multiple domains in PDD
patients, the interpretation of the efficacy results of Study 2315 is difficult.
While the MAH believes that there is sufficient direct and indirect evidence available for bridging of
indication between capsules and the patch, the Committee expressed their concerns and highlighted
that the different efficacy results between capsule and patch in AD and Parkinsons disease could be
explained by the difference in exposure/PK profile of the formulations
Alzheimer disease and dementia in Parkinson disease have different underlying aetiologies and
pathogenetic mechanisms. Consequently, the two diseases could react differently to therapy. Since the
dose/response relationship could be different in PDD and ADD, the respective role of Cmax and AUC in
efficacy must be further clarified to allow bridging of efficacy based on PK data.
Overall conclusion on safety
Overall, the Exelon/Prometax capsule safety data and the Exelon/Prometax patch safety data from
study B2315 are consistent with the known safety profile of Exelon/Prometax in PD population, and no
major differences in safety profile are observed in this study between the two formulations. The most
frequently reported AEs in the Exelon/Prometax patch group were fall (20.1%), application site
erythema (13.9%), Parkinsonian rest tremor (9.7%) and confusional state (9.4%). Psychiatric events
were reported most frequently by patients in the Exelon/Prometax patch group (45.1% vs 32% for
capsule), particularly depression (8% vs 2% for capsule). The incidence of gastrointestinal AEs was
significantly lower in the Exelon/Prometax patch group (29.2%) than in the Exelon/Prometax capsule
group (61.9%).
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Regarding long term safety data, study B2315 is considered well designed. The results of this study do
not identify any unexpected adverse events during long-term treatment with Exelon/Prometax capsule
or patch in the PD population.
No new signal was raised from study B2315 regarding application site reactions (which occurred at an
expected frequency). However, concern has been raised from post-marketing data regarding skin
reactions with Exelon/Prometax patch. It appears that rivastigmine may induce two types of skin
reactions, mainly application site reactions (allergic dermatitis, pruritus, irritation) due to contact
hypersensitivity (Exelon/Prometax patch), but also generalized allergic reactions due to systemic
hypersensitivity to oral rivastigmine, in some patients previously sensitized by Exelon/Prometax patch.
Therefore, in order to minimize the risk of serious skin reactions and maintain a favourable benefit/risk
of Exelon/Prometax patch the MAH is requested to enlarge the contraindication to the use of any
Exelon/Prometax formulation if any skin reaction with Exelon/Prometax patch occurs.
Conclusion on benefit risk
The benefit/risk balance of Exelon/Prometax patch for the treatment of mild to moderate severe
dementia in patients with idiopathic Parkinson’s disease can only be considered positive provided that
satisfactory clarifications are given the objections raised below and the MAH agrees to enlarge the
contraindication to the use of any Exelon/Prometax formulation if any skin reaction with
Exelon/Prometax patch occurs.
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5. Request for supplementary information
Clinical aspects
5.1. Major objections
1. Alzheimer disease and dementia in Parkinson disease have different underlying aetiologies and
pathogenetic mechanisms. Consequently, the two diseases could react differently to therapy.
Since the dose/response relationship could be different in PDD and ADD, the respective role of
Cmax and AUC in efficacy must be further clarified to allow bridging of efficacy based on PK
data. The discussion should be based on a qualitative summary of available scientific
knowledge on the respective diseases and the pharmacology of the drug, also on quantitative
PK/PD modelling based on clinical or pharmacodynamic outcomes (e.g. enzyme inhibition).
5.2. Other concerns
2. Since the MAH does not foresee additional risk minimization activities such as general
allergological testing or a desensitization protocol, in order to minimize the risk of serious skin
reactions the MAH should enlarge the current contraindication to the use of any
Exelon/Prometax formulation if any skin reaction with Exelon/Prometax patch occurs.
3. The RMP should be updated to reflect the above mentioned contraindication and the risk of
elevated liver function tests. In addition, the summary tables 5-1 and 5-2 should include
relevant SmPC wording and not just references to Annex 2.
4. The paediatric full waiver must be mentioned in the SmPC as per the QRD template and the
comments highlighted in annex I should be taken into account.